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PUBLISHER: Mind Commerce | PRODUCT CODE: 1436829

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PUBLISHER: Mind Commerce | PRODUCT CODE: 1436829

6G Wireless Market by 6G Technology Development (Investment, R&D and Testing) and 6G Market Commercialization (Infrastructure, Deployment, Applications and Services), Use Cases and Industry Verticals 2024 - 2030

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Overview:

In its sixth year of analyzing the emerging six-generation wireless market, Mind Commerce is the leading market research company focused upon emerging 6G technologies, capabilities, solutions, applications and services. This report edition expands upon previous analysis focused primarily upon emerging 6G technologies. This edition evaluates 6G development including technology investment, R&D, prototyping and testing.

The report also assesses 6G market commercialization including opportunities for infrastructure development and equipment deployment as well as a realization of applications and services. The report also analyzes 6G market use cases by industry vertical. The report provides 6G market sizing for 2024 through 2030, with the lower end of the range focused primarily on technology development, and the latter end of the range focused on 6G market commercialization.

Select Report Findings:

  • 6G communication services will achieve initial commercialization in 2030
  • Pre-commercial 6G infrastructure and testbeds market will reach almost $5 billion by 2030
  • The Asia Pacific region will lead 6G core and RF investment, followed by the USA and Europe
  • 6G technologies are best characterized as ultra-secure, ultra-fast, ultra-reliable, and ultra-short-range oriented capabilities
  • Network optimization beyond 5G will rely upon smart surfaces with solutions for 6G networks and devices reaching $16 billion by 2035
  • Post commercialization investment in 6G technologies will be dominated by short-range wireless use cases as well as peer-to-peer networking
  • 6G wireless will drive a new wave of electronics innovation including device power management, miniaturization, networking, and edge computing
  • Communications with 6G will depend on device peering for short-chain connectivity for short-range communications and long-chain connectivity for front-haul and back-haul

6G Wireless Technologies

A battle is underway to influence the standards of 6G amid concerns by Western countries and their allies that authoritarian regimes could gain further control over the internet in their countries. The governments of the U.S., Australia, Canada, the Czech Republic, Finland, France, Japan, South Korea, Sweden and the U.K. released a joint statement saying that by working together, "we can support open, free, global, interoperable, reliable, resilient, and secure connectivity."

Expanding upon the trend started with technologies supporting 5G capabilities, 6G will be integrated with a set of previously disparate technologies. Several key technologies will converge with 6G including AI, big data analytics, and next generation computing. 6G networks will extend the performance of existing 5G capabilities along with expanding the scope to support increasingly new and innovative applications across the realms of communications, sensing, wireless cognition, and imaging.

Whereas 5G leverages mmWave in the microwave frequency range, 6G will take advantage of even smaller wavelengths at the Terahertz (THz) band in the 100 GHz to 3 THz range. While the impact to the Radio Access Network (RAN) for 5G is substantial, it will be even bigger with 6G networks, which is driven largely by a substantial increase in frequency, which will facilitate the need for antennas virtually everywhere.

Just as there have been, and will continue to be, many challenges with 5G, so will there be many new challenges with 6G. One of those challenges will be developing commercial transceivers for THz frequencies. This is largely an area in which electronics component providers must innovate. For example, semiconductor providers will need to deal with extremely small wavelengths and correspondingly small physical size of RF transistors and how they will interwork with element spacing of THz antenna arrays.

6G wireless will also exploit some completely new RAN approaches to increasing bandwidth and reducing latency, such as sub-THz radio frequencies and visible light spectrum, as well as leverage enhancements to existing radio methods, such as advanced MIMO technologies to increase spectral efficiency. This will include some innovative methods such as angular momentum multiplexing, combining multi-RAT and 3D multi-link connectivity, along with ultra-dense radio access point deployment such as hyper-extension of the small cell concept in a HetNet environment.

Terahertz Radio Propagation for 6G Communications

There will be many new technologies and solutions approaches to enable terahertz-level radio. For example, ultra-fast radio chips will be required to achieve frequencies up to 20THz for next generation 6G communications. The metastructures are etched and patterned at sub-wavelength distances onto a semiconductor made of gallium nitride and indium gallium nitride. These allow electrical fields inside devices to be controlled.

This approach to semiconductor design has already enabled up to 100 gigabits per second at terahertz frequencies, which represents a 10X improvement over 5G communications. Effectively utilizing these high frequencies will also require innovation in smart antenna implementation. For example, there is a need for reconfigurable antennas that can tune properties such as frequency and radiation beams in real-time.

Sub-Terahertz Radio 6G Solutions

While 6G wireless promises dramatically higher data speeds than 5G advanced via terahertz frequencies, sub-THz communication is a very important interim solution area. For example, the frequency range from 7.125 GHz to 24.25 GHz is attracting attention as possible additional spectrum for 6G, and is already being unofficially referred to as FR3. The wavelength is attractive as compared to FR2 frequencies; it is less susceptible to attenuation, simplifying coverage, and includes enough unallocated frequencies to support wider channels than FR1 (100 MHz).

6G and Smart Surface Technologies

As discussed in previous versions of this 6G market report, smart surfaces will be key to the long-term success of 6G wireless. Specifically, reconfigurable intelligent surface (RIS) technology will provide better control of the electromagnetic waves in the radio propagation channel, which shall dramatically improve performance thanks to leveraging metamaterial properties not found in natural substances.

RIS is crucial for the 6G market, especially at higher frequency ranges, as propagation losses may reach up to 2,000 times higher than that of 5G commercial frequencies. However, current RIS engineering approaches yield up to a 40% improvement as compared to non-RIS based systems. Use of RIS will be critical for 6G in urban environments, especially for indoor wireless for enterprise and industrial solutions.

6G and Artificial Intelligence

While the 6G network will take advantage of 5G's existing infrastructure, it differentiates itself by using ultra-high radio frequencies to carry more data at faster speeds, and it will have built-in artificial intelligence with machine learning too. Machine learning and AI-based network automation will be crucial to simplify network management and optimization.

With 6G, users can expect to instantaneously transfer data and do away with buffering, lags and disconnections. In a similar way to how 2G gave us text messaging and 4G introduced an entire mobile app system, 6G will enhance machine-to-machine communication, creating greater interoperability in a "smart," Internet-of-Things era.

In this manner, 6G will provide super communication and ubiquitous information, and converge computing services, thus being the base for an interconnected and converged physical and digital world. 6G will make it possible for applications to "sense" their surroundings, thereby turning the network into a tool for "sixth sense" capabilities.

Ongoing Study of Technologies Beyond 5G and Sixth Generation Wireless

Starting in 2018, we began to formulate a vision for wireless and networking beyond 5G. Working independently, we published our first 6G market research report titled Sixth Generation Cellular: Looking Beyond 5G to the 6G Technology Market in June 2019. This ground-breaking research represented an initial investigation into the upcoming 6G technology market. This research built upon our extensive analysis in LTE, 5G, and computing (core cloud, edge computing, HPC, and quantum), and other related areas such as artificial intelligence and AI support of other technologies.

6G Flagship, an organization funded in part by the Academy of Finland with an overall budget of 251 million Euros to study 6G from 2018 to 2026, published the white paper titled "Key Drivers and Research Challenges for 6G Ubiquitous Wireless Intelligence" in September 2019. This publisher subsequently became involved with efforts at the University of Oulu to develop a set of new white papers focused on various additional aspects of 6G.

This culminated in the publishing of "White Paper on 6G Networking" in June 2020. Written by an international expert group, and led by the Finnish 6G Flagship program, the paper sheds light on advanced features relevant to networking that are anticipated to shape the evolution beyond 5G, ultimately leading to 6G. Gerry Christensen, founder of Mind Commerce, was one of the authors of the paper and his name is found among the contributors listed on the 6G Flagship website.

The involvement in 6G Flagship's efforts has both solidified its initial research findings as well as provided an opportunity to network with wireless and networking experts from industry and academia. This makes Mind Commerce the foremost market research authority in the emerging area of 6G technology, solutions, applications and services.

Companies in Report:

  • AT&T
  • Autotalks
  • Broadcom Corporation
  • China Telecom
  • China Unicom
  • Cisco Systems
  • ComSenTer (University of California)
  • Corning Incorporated
  • DARPA
  • DeepSig
  • Ericsson
  • European Commission
  • Federated Wireless
  • Fujitsu
  • Google
  • Huawei
  • InterDigital
  • International Telecommunication Union
  • Karlsruhe Institute of Technology
  • Keysight Technologies
  • LG Corporation
  • MediaTek
  • Motorola Solutions
  • Nanyang Technological University
  • National Instrument Corp.
  • National Science Foundation
  • NEC Corporation
  • NGMN Alliance
  • Nokia (Bell Labs)
  • NTT DoCoMo
  • Nvidia
  • NYU Wireless
  • Orange
  • Qualcomm
  • Reliance Jio Infocomm Limited
  • Samsung Electronics
  • SK Telecom
  • T-Mobile
  • TU Braunschweig
  • University of Oulu (6G Flagship)
  • Verizon Wireless
  • Virginia Diodes
  • Virginia Tech
  • ZTE

Table of Contents

1.0. Executive Summary

2.0. Introduction

  • 2.1. Defining 6G Wireless
    • 2.1.1. 6G Key Performance Indicators
    • 2.1.2. 5G and 6G Comparison
  • 2.2. 6G Roadmap: Evolution to 6G Wireless Networks
  • 2.3. Beyond 5G Evolution, 5G Context, and 6G
    • 2.3.1. Much Greater Data Speed
    • 2.3.2. Focus on Edge Computing for Latency Reduction
    • 2.3.3. Dealing with Radio Propagation and Mobility Challenges
    • 2.3.4. Providing Massively Scalable Support for IoT
    • 2.3.5. Increased Emphasis on Private Networks for Business
  • 2.4. 6G Network Elements
    • 2.4.1. New Spectrum and Frequencies
    • 2.4.2. Radio Access Network Transformation
    • 2.4.3. Changes to Core Networks
    • 2.4.4. Evolution of the Datacenter
  • 2.5. 6G Functionality and Benefits
    • 2.5.1. 6G Functionality and Features
      • 2.5.1.1. Leverages Terahertz Communication
      • 2.5.1.2. Emphasis on Energy Conservation
      • 2.5.1.3. Operational, Environmental, and Service Intelligence
      • 2.5.1.4. Improved Security and Privacy
      • 2.5.1.5. Connected Satellite Network and Intelligence
      • 2.5.1.6. Synergy with Information and Energy
      • 2.5.1.7. Three-Dimensional Connectivity
      • 2.5.1.8. Small Cell Network Evolution
      • 2.5.1.9. Hyper-Dense Heterogeneous Networks
      • 2.5.1.10. Ultra-High Capacity Wireless Backhaul
      • 2.5.1.11. Communications and Sensing Integration
      • 2.5.1.12. Next Generation Softwarization and Virtualization
  • 2.6. 6G Technology Benefits
  • 2.7. 6G Market Drivers and Challenges
    • 2.7.1. 6G Market Growth Factors
      • 2.7.1.1. Need for Microsecond Latency
      • 2.7.1.2. Growth of IoT and Industrial, Object-Driven Traffic
      • 2.7.1.3. Wireless Cognition, Single Core Structure, and Public Safety
      • 2.7.1.4. Smart City Applications: Sensing and More
      • 2.7.1.5. Ubiquitous Coverage from Satellite Internet to Ultra-Local Networks
      • 2.7.1.6. Ultra-Macro Coverage
      • 2.7.1.7. Ultra-Micro Coverage
      • 2.7.1.8. Fully Digital and Connected World
      • 2.7.1.9. Fundamental Improvements in User Experience
      • 2.7.1.10. 6G Democratizes Intelligence
        • 2.7.1.10.1. Smart Surfaces
        • 2.7.1.10.2. Smart Environments
        • 2.7.1.10.3. Smart Power
      • 2.7.1.11. Meeting UN Sustainable Development Goals
      • 2.7.1.12. Facilitating Private-Public Industry Collaboration
      • 2.7.1.13. Realizing a Hyper-Connected Intelligent World
    • 2.7.2. 6G Market Challenges
      • 2.7.2.1. High Deployment Expenditures
      • 2.7.2.2. Unprecedented Impacts on Industry Verticals
      • 2.7.2.3. Business Model Disruption for Communication Service Providers
        • 2.7.2.3.1. Substantial Disintermediation
        • 2.7.2.3.2. Voice and Data Value Perception Approaches Zero
        • 2.7.2.3.3. Extreme Focus on Local Communication and Networking
        • 2.7.2.3.4. Device-to-Device Signaling, Relay, and Mesh Networks
        • 2.7.2.3.5. Supporting Micro-Operators Networks
      • 2.7.2.4. Business Model Disruption for Computing and Data Centers
        • 2.7.2.4.1. Significant Data will be Creation
        • 2.7.2.4.2. Edge Compute Native Networks
        • 2.7.2.4.3. Considerable Catalyst for HPC and Quantum Computing
        • 2.7.2.4.4. New Security and Privacy Issues
  • 2.8. 6G Business Models
    • 2.8.1. Decentralized Business Model
    • 2.8.2. New Business Model for Network Operators
    • 2.8.3. Private Network Transformation
    • 2.8.4. Micro-Operators and Distributed Services Model
  • 2.9. 6G Value Chain
    • 2.9.1. User Equipment Manufacturers
    • 2.9.2. Infrastructure Manufacturers
    • 2.9.3. Connectivity Providers
    • 2.9.4. IoT Solution Providers
    • 2.9.5. Analytics Solution Providers
    • 2.9.6. Enterprise, Government, and Industrial Users
    • 2.9.7. Software Solution Providers
  • 2.10. Anticipated 6G Impacts on Industry and Society
    • 2.10.1. 6G Impact on Information and Communications Technology
    • 2.10.2. 6G Economic and Cultural Impacts
  • 2.11. 6G Research Initiatives and Industry Development
    • 2.11.1. China
    • 2.11.2. United States
    • 2.11.3. Canada
    • 2.11.4. Japan
    • 2.11.5. South Korea
    • 2.11.6. Finland (6G Flagship)
    • 2.11.7. European Commission
    • 2.11.8. International Telecommunication Union

3.0. 6G Technology Considerations

  • 3.1. 6G Spectrum Evolution
    • 3.1.1. 95 Ghz to 3 THz Frequency Bands
    • 3.1.2. THz Spectrum Benefits
    • 3.1.3. Radio Frequency and Data Rates Targeting One Terabit
    • 3.1.4. Unlicensed Spectrum and Private Networks
      • 3.1.4.1. NR U and 6G U
      • 3.1.4.2. 6G Private Networks
    • 3.1.5. Citizens Broadband Radio Service and Spectrum Sharing
    • 3.1.6. Impact of Softwarization and AI
  • 3.2. 6G Network Management and Orchestration
  • 3.3. 6G Communication Infrastructure
    • 3.3.1. Physical, Digital, and Biological System Convergence
    • 3.3.2. Short Range Communication Impact
    • 3.3.3. AI and Machine Learning
    • 3.3.4. Inter-Protocol Interference
    • 3.3.5. Molecular Communications
    • 3.3.6. Internet of Nano-Things
    • 3.3.7. Internet of Sense
  • 3.4. 6G Communication Technologies
    • 3.4.1. Substantial Improvements in Enhanced Mobile Broadband
    • 3.4.2. Secure Ultra-Reliable Low-Latency Communications
    • 3.4.3. 3D Integrated Communications
    • 3.4.4. Unconventional Data Communications
  • 3.5. 6G Enabling Technologies
    • 3.5.1. Terahertz Frequency
    • 3.5.2. Optical Wireless Technology
    • 3.5.3. FSO Backhaul Network
    • 3.5.4. Blockchain-Based Spectrum Sharing
    • 3.5.5. Three-Dimensional Networking
    • 3.5.6. Flexible Communications
    • 3.5.7. Integrated Energy Management, Sensing and Communications
    • 3.5.8. Dynamic Network Slicing
    • 3.5.9. Holographic Beamforming
    • 3.5.10. Supermassive Intelligent Surface Assisted MIMO and Large-Scale Antenna Arrays
    • 3.5.11. AI Native 6G Networks
    • 3.5.12. Intelligence at the Edge of Everything
    • 3.5.13. Modern Random-Access Protocols for IoT
    • 3.5.14. Radio Access Technology in Industry 4.0
    • 3.5.15. Semantic Intelligence
    • 3.5.16. Encryption Technologies
    • 3.5.17. Visible Light Communication and Sub-THz Communication
    • 3.5.18. Orbital Angular Momentum Multiplexing
    • 3.5.19. CMOS Technology and Intelligent Chips
    • 3.5.20. Fixed Wireless Access
    • 3.5.21. Quasi-Optical Antennas
    • 3.5.22. Artificial Intelligence and IoT Fusion
    • 3.5.23. Digital Signal Processing
  • 3.6. 6G R&D Investments
  • 3.7. 6G Testbeds for Technology Acceptance and Market Development

4.0. 6G Infrastructure Market

  • 4.1. Core Infrastructure
  • 4.2. Radio Equipment
  • 4.3. Computing Equipment
  • 4.4. Transport Networks

5.0. 6G Semiconductor Market

  • 5.1. 6G Chipsets
  • 5.2. Terahertz Receivers
    • 5.2.1. Nanoscale Atomristor Switch

6.0. 6G Device Market

  • 6.1. Smartphones and other Handheld Devices
  • 6.2. Wearables and Implantables
  • 6.3. Modems, Gateways, Access Points
  • 6.4. Vehicle Communications
  • 6.5. Buildings and Facility Communications

7.0. 6G Materials Market

8.0. 6G Solution Areas

  • 8.1. 6G Communications
  • 8.2. 6G Sensing
  • 8.3. 6G Imaging
  • 8.4. 6G Precise Location

9.0. 6G Use Cases and Anticipated Applications

  • 9.1. Volumetric Media Streaming
  • 9.2. Connected Manufacturing and Automation
  • 9.3. Multi-Sensory Extended Reality
  • 9.4. Next Generation Healthcare
  • 9.5. Communications for Brain-Computer Integration
  • 9.6. Connected Robotics and Autonomous Systems
  • 9.7. Five Sense Information Transfer
  • 9.8. Internet of Everything

10.0. 6G Synergies with Next Generation Computing

  • 10.1. Multi-Access Edge Computing
  • 10.2. High Performance Computing
  • 10.3. Quantum Computing
    • 10.3.1. Quantum Technologies: Communication, Sensing, Simulation, and Imaging
    • 10.3.2. Next Generation Computing
    • 10.3.3. Digital Twining Technology, Smart Machines, and Physical-Cyber Convergence

11.0. 6G Technology Company Analysis

  • 11.1. AT&T
  • 11.2. Autotalks
  • 11.3. Broadcom Corporation
  • 11.4. China Telecom
  • 11.5. China Unicom
  • 11.6. Cisco Systems
  • 11.7. Corning Incorporated
  • 11.8. DARPA
  • 11.9. DeepSig
  • 11.10. Ericsson
  • 11.11. Meta (Facebook)
  • 11.12. Federated Wireless
  • 11.13. Fujitsu
  • 11.14. Google
  • 11.15. Huawei
  • 11.16. InterDigital
  • 11.17. Karlsruhe Institute of Technology
  • 11.18. Keysight Technologies
  • 11.19. LG Corporation
  • 11.20. MediaTek
  • 11.21. Motorola Solutions
  • 11.22. Nanyang Technological University
  • 11.23. National Science Foundation
  • 11.24. Nokia (Bell Labs)
  • 11.25. NEC Corporation
  • 11.26. NTT DoCoMo
  • 11.27. Nvidia
  • 11.28. NYU Wireless
  • 11.29. Orange
  • 11.30. NGMN Alliance
  • 11.31. Qualcomm
  • 11.32. Samsung Electronics
  • 11.33. SK Telecom
  • 11.34. T-Mobile
  • 11.35. TU Braunschweig
  • 11.36. ComSenTer (University of California)
  • 11.37. University of Oulu (6G Flagship)
  • 11.38. Virginia Diodes
  • 11.39. National Instrument Corp.
  • 11.40. Virginia Tech
  • 11.41. Verizon Wireless
  • 11.42. ZTE
  • 11.43. Reliance Jio Infocomm Limited

12.0. 6G Market Analysis and Forecasts 2024-2030

  • 12.1. Network, Device and Computing Cost Considerations
  • 12.2. 6G Infrastructure Market 2024-2030
    • 12.2.1. Global 6G Infrastructure Market
    • 12.2.2. Global 6G Infrastructure Market by Type
      • 12.2.2.1. Global 6G Infrastructure Market by End User Device
      • 12.2.2.2. Global 6G Infrastructure Market by Equipment
      • 12.2.2.3. Global 6G Infrastructure Market by Semiconductors
      • 12.2.2.4. Global 6G Infrastructure Market by 6G Materials
    • 12.2.3. Regional 6G Infrastructure Market
      • 12.2.3.1. 6G Infrastructure Market by Region
        • 12.2.3.1.1. APAC 6G Infrastructure Market: Device, Equipment, and Materials
        • 12.2.3.1.2. North America 6G Infrastructure Market: Device, Equipment, and Materials
        • 12.2.3.1.3. Europe 6G Infrastructure Market: Device, Equipment, and Materials
        • 12.2.3.1.4. MEA 6G Infrastructure Market: Device, Equipment, and Materials
        • 12.2.3.1.5. Latin America 6G Infrastructure Market: Device, Equipment, and Materials
  • 12.3. 6G Infrastructure Unit Deployment 2024-2030
    • 12.3.1. Global 6G Infrastructure Unit Deployment
    • 12.3.2. Global 6G Infrastructure Unit Deployment by Type
      • 12.3.2.1. Global 6G End User Device Unit Deployment
      • 12.3.2.2. Global 6G Infrastructure Unit Deployment by Equipment
      • 12.3.2.3. Global 6G Semiconductor Unit Deployment
    • 12.3.3. 6G Infrastructure Unit Deployment by Region
      • 12.3.3.1. APAC 6G Infrastructure Unit Deployment: Device, Equipment, and Country
      • 12.3.3.2. North America 6G Infrastructure Unit Deployment: Device, Equipment, and Country
      • 12.3.3.3. Europe 6G Infrastructure Unit Deployment: Device, Equipment, and Country
      • 12.3.3.4. MEA 6G Infrastructure Unit Deployment: Device, Equipment, and Country
      • 12.3.3.5. Latin America 6G Infrastructure Unit Deployment: Device, Equipment, and Country
  • 12.4. 6G Testbeds Market 2024-2030
    • 12.4.1. Global 6G Testbed PaaS Market
    • 12.4.2. Global 6G Testbed PaaS Market by Region
    • 12.4.3. Global 6G Testbed PaaS Market by Country
  • 12.5. 6G Investment 2024-2030
    • 12.5.1. Global 6G R&D Investment
      • 12.5.1.1. Global 6G R&D Investment by Funding Type
    • 12.5.2. Global 6G Core Infrastructure Investment
    • 12.5.3. Global 6G Transport Network Investment

13.0. Conclusions and Recommendations

14.0. Appendix

  • 14.1. 5G Technologies in Support of 6G Evolution
    • 14.1.1. 5G Communication Technology
      • 14.1.1.1. Enhanced Mobile Broadband
      • 14.1.1.2. Ultra-reliable Low-latency Communications
      • 14.1.1.3. Massive Machine-type Communications
    • 14.1.2. Service Based Architecture and Orchestration
    • 14.1.3. Fixed Wireless Access
    • 14.1.4. Edge Computing with Communication
    • 14.1.5. Smart Antennas with MIMO and Beamforming
    • 14.1.6. Smart Surfaces Technology
  • 14.2. 5G Applications to Expedite 6G Evolution
    • 14.2.1. Retail and Consumer Electronics Applications
    • 14.2.2. Healthcare Applications
    • 14.2.3. Industrial Automation Applications
    • 14.2.4. Intelligent Building Automation Applications
    • 14.2.5. Automotive and Transportation Applications
    • 14.2.6. Home Automation Applications
    • 14.2.7. Financial Institution Applications
    • 14.2.8. Energy and Utilities Applications
    • 14.2.9. Public Safety Applications
    • 14.2.10. Military Applications
    • 14.2.11. Oil and Gas Applications
    • 14.2.12. Mining Applications
    • 14.2.13. Agriculture Applications
  • 14.3. 5G Service Market 2024-2030
    • 14.3.1. 5G Service Market by Communication Technology
      • 14.3.1.1. 5G eMBB Market by Application
      • 14.3.1.2. 5G mMTC Market by Application
      • 14.3.1.3. 5G URLLC Market by Application
      • 14.3.1.4. 5G FWA Market by Application
    • 14.3.2. 5G Service Market by Communication Device
    • 14.3.3. 5G Market by Service Provider
      • 14.3.3.1. 5G Carrier/MNO Service Market
        • 14.3.3.1.1. 5G Consumer Application Market
        • 14.3.3.1.2. 5G Enterprise Application Market
        • 14.3.3.1.3. 5G Government Application Market
      • 14.3.3.2. 5G OTT Service Market
  • 14.4. 5G New Radio Application Market 2024-2030

Figures

  • Figure 1: 6G Key Performance Indicators
  • Figure 2: Comparison: 5G vs. 6G Wireless Communication
  • Figure 3: Evolution of Wireless Communication: 1G to 6G
  • Figure 4: Edge Computing and Latency
  • Figure 5: 5G Accelerates Private Wireless Networks
  • Figure 6: Local and Personal Networks
  • Figure 7: Tomorrow's World of Everything is an Access Point
  • Figure 8: 6G AI "Nanocore" Infrastructure
  • Figure 9: THz Electromagnetic Spectrum Considerations
  • Figure 10: 6G Key Features
  • Figure 11: Smart Surfaces
  • Figure 12: Smart Environment
  • Figure 13: 6G Connected World
  • Figure 14: Private Network Diagram
  • Figure 15: CBRS Spectrum Sharing
  • Figure 16: 6G Network Orchestration
  • Figure 17: 6G Communication Architecture
  • Figure 18: 6G Communication Technology
  • Figure 19: Semantic Intelligence in Automated Factory
  • Figure 20: Sub-THz Hardware IC Technology
  • Figure 21: Visible Light Communication: Mbps to Tbps
  • Figure 23: 6G Sub-Terahertz Testbed
  • Figure 22: Intelligent O-RAN Architecture
  • Figure 24: Global 6G Infrastructure Market 2024 - 2030
  • Figure 25: Global 6G Infrastructure Unit Deployment 2024 - 2030
  • Figure 26: Global 6G Testbed PaaS Market 2024 - 2030
  • Figure 27: Global 6G R&D Investment 2024 - 2030
  • Figure 28: Global 6G Core Infrastructure Investment 2024 - 2030
  • Figure 29: Global 6G Transport Network Investment 2024 - 2030
  • Figure 30: 5G Communication Technologies

Tables

  • Table 1: 6G Network, Device and Computing Price Estimates
  • Table 2: Global 6G Infrastructure Market by Type 2024 - 2030
  • Table 3: Global 6G Market by End User Device 2024 - 2030
  • Table 4: Global 6G Infrastructure Market by Equipment 2024 - 2030
  • Table 5: Global 6G Market by Semiconductors 2024 - 2030
  • Table 6: Global 6G Infrastructure Market by 6G Materials 2024 - 2030
  • Table 7: Global 6G Infrastructure Market by Region 2024 - 2030
  • Table 8: APAC 6G Infrastructure Market by Type 2024 - 2030
  • Table 9: APAC 6G Market by End User Device 2024 - 2030
  • Table 10: APAC 6G Infrastructure Market by Equipment 2024 - 2030
  • Table 11: APAC 6G Market by Semiconductors 2024 - 2030
  • Table 12: APAC 6G Infrastructure Market by 6G Materials 2024 - 2030
  • Table 13: APAC 6G Infrastructure Market by Country 2024 - 2030
  • Table 14: North America 6G Infrastructure Market by Type 2024 - 2030
  • Table 15: North America 6G Market by End User Device 2024 - 2030
  • Table 16: North America 6G Infrastructure Market by Equipment 2024 - 2030
  • Table 17: North America 6G Market by Semiconductors 2024 - 2030
  • Table 18: North America 6G Infrastructure Market by 6G Materials 2024 - 2030
  • Table 19: North America 6G Infrastructure Market by Country 2024 - 2030
  • Table 20: Europe 6G Infrastructure Market by Type 2024 - 2030
  • Table 21: Europe 6G Market by End User Device 2024 - 2030
  • Table 22: Europe 6G Infrastructure Market by Equipment 2024 - 2030
  • Table 23: Europe 6G Market by Semiconductors 2024 - 2030
  • Table 24: Europe 6G Infrastructure Market by 6G Materials 2024 - 2030
  • Table 25: Europe 6G Infrastructure Market by Country 2024 - 2030
  • Table 26: MEA 6G Infrastructure Market by Type 2024 - 2030
  • Table 27: MEA 6G Market by End User Device 2024 - 2030
  • Table 28: MEA 6G Infrastructure Market by Equipment 2024 - 2030
  • Table 29: MEA 6G Market by Semiconductors 2024 - 2030
  • Table 30: MEA 6G Infrastructure Market by 6G Materials 2024 - 2030
  • Table 31: MEA 6G Infrastructure Market by Country 2024 - 2030
  • Table 32: Latin America 6G Infrastructure Market by Type 2024 - 2030
  • Table 33: Latin America 6G Market by End User Device 2024 - 2030
  • Table 34: Latin America 6G Infrastructure Market by Equipment 2024 - 2030
  • Table 35: Latin America 6G Market by Semiconductors 2024 - 2030
  • Table 36: Latin America 6G Infrastructure Market by 6G Materials 2024 - 2030
  • Table 37: Latin America 6G Infrastructure Market by Country 2024 - 2030
  • Table 38: Global 6G Infrastructure Unit Deployment by Type 2024 - 2030
  • Table 39: Global 6G End User Device Unit Deployment 2024 - 2030
  • Table 40: Global 6G Infrastructure Unit Deployment by Equipment 2024 - 2030
  • Table 41: Global 6G Semiconductor Unit Deployment 2024 - 2030
  • Table 42: Global 6G Infrastructure Unit Deployment by Region 2024 - 2030
  • Table 43: APAC 6G Infrastructure Unit Deployment by Type 2024 - 2030
  • Table 44: APAC 6G End User Device Unit Deployment 2024 - 2030
  • Table 45: APAC 6G Infrastructure Unit Deployment by Equipment 2024 - 2030
  • Table 46: APAC 6G Semiconductor Unit Deployment 2024 - 2030
  • Table 47: APAC 6G Infrastructure Unit Deployment by Country 2024 - 2030
  • Table 48: North America 6G Infrastructure Unit Deployment by Type 2024 - 2030
  • Table 49: North America 6G End User Device Unit Deployment 2024 - 2030
  • Table 50: North America 6G Infrastructure Unit Deployment by Equipment 2024 - 2030
  • Table 51: North America 6G Semiconductor Unit Deployment 2024 - 2030
  • Table 52: North America 6G Infrastructure Unit Deployment by Country 2024 - 2030
  • Table 53: Europe 6G Infrastructure Unit Deployment by Type 2024 - 2030
  • Table 54: Europe 6G End User Device Unit Deployment 2024 - 2030
  • Table 55: Europe 6G Infrastructure Unit Deployment by Equipment 2024 - 2030
  • Table 56: Europe 6G Semiconductor Unit Deployment 2024 - 2030
  • Table 57: Europe 6G Infrastructure Unit Deployment by Country 2024 - 2030
  • Table 58: MEA 6G Infrastructure Unit Deployment by Type 2024 - 2030
  • Table 59: MEA 6G End User Device Unit Deployment 2024 - 2030
  • Table 60: MEA 6G Infrastructure Unit Deployment by Equipment 2024 - 2030
  • Table 61: MEA 6G Semiconductor Unit Deployment 2024 - 2030
  • Table 62: MEA 6G Infrastructure Unit Deployment by Country 2024 - 2030
  • Table 63: Latin America 6G Infrastructure Unit Deployment by Type 2024 - 2030
  • Table 64: Latin America 6G End User Device Unit Deployment 2024 - 2030
  • Table 65: Latin America 6G Infrastructure Unit Deployment by Equipment 2024 - 2030
  • Table 66: Latin America 6G Semiconductor Unit Deployment 2024 - 2030
  • Table 67: Latin America 6G Infrastructure Unit Deployment by Country 2024 - 2030
  • Table 68: Global 6G Testbed PaaS Market by Region 2024 - 2030
  • Table 69: Global 6G Testbed PaaS Market by Country 2024 - 2030
  • Table 70: Global 6G R&D Investment by Funding Type 2024 - 2030
  • Table 71: Global 5G Service Market by Communication Technology 2024 - 2030
  • Table 72: Global 5G Market by eMBB Application 2024 - 2030
  • Table 73: Global 5G Market by eMBB Application 2024 - 2030
  • Table 74: Global 5G Market by URLLC Application 2024 - 2030
  • Table 75: Global 5G Market by FWA Application 2024 - 2030
  • Table 76: Global 5G Service Market by Communication Device 2024 - 2030
  • Table 77: Global 5G Market by Service Provider 2024 - 2030
  • Table 78: Global 5G Carrier/MNO Service Market by Application 2024 - 2030
  • Table 79: Global 5G Carrier/MNO Service Market by Consumer Application 2024 - 2030
  • Table 80: Global 5G Carrier/MNO Service Market by Business Application 2024 - 2030
  • Table 81: Global 5G Carrier/MNO Service Market by Government Application 2024 - 2030
  • Table 82: Global 5G OTT Service Market by Application 2024 - 2030
  • Table 83: Global 5G OTT Service Market by Application 2024 - 2030
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